Scale



PTI i5, 1929. N. A. HALLwooo sul.;

F1106 April 29, 1927 Patented Apr. 16, 1929.

UNITED STATES NATHAN A. HALLWOOD, 0F COLUMBUS, OHIO.

SCALE.

Application led April 29,

ThisI invention relates to improvements in scales, and, with reference to the more specilic features thereof, is especially directed to scales of the so called even balance type, that is, to a scale wherein the beam member is pivoted centrally upon a supporting base and is adapted to assume a balanced position `when substantially equal weights are applied to the opposite ends thereof.

Among the objects of the invention are: to provide an improved indicating means in connection with scales of this character for denoting clearly and conveniently When the beam member of the scale occupies a truly balanced position or the deflection thereof to either side of such a balanced position; in the provision of an improved spring mechanism for causing the beam member and its associated indicator to return to or maintain a desired position of balance; in the provision of a scale of the character set forth wherein the pivoted beam member is provided at a point substantially in registration with the pivotal mounting thereof with a fixed, elongated, perpendicularly extending indicator, which upon the oscillation of the beam member will move in unison with the latter over a graduated surface to enable the operating positions of the beam member to be readily determined; in the provision of an improved dash pot construction arranged in the indicator casing or tower and cooperative with the oscillatory indicator to control or dampen the vibration of the beam member and to bring the latter with desired acceleration to a position of balance or rest following the application of weights to said beam member; in the provision of a scale wherein friction and other technical losses set up by relatively moving parts of a scale are for all practical purposes eliminated, and in the provision generally of a scale of this type consisting of few and simple parts which are not likely to become out of order, require adjustment 0r occasion undue attention and repair to maintain the same in a proper working order, the scale being also constructed as to be unail'ected by temperature changes oi the relation of the base plane of the scale with respect to the horizontal.

Other objects will be in part obvious and in parl, pointed out hereinafter.

The invention consists4 in the novel features of construction. combinationsofclements and arrangements of parts` hereinafter described 1927. Serial No. 187,641.

and claimed, it being understood, however, that various changes in the size, proportion, materials and arrangements of parts may be made in the construction of the scale from that herein specifically disclosed and illustrated, Without departing from the scope of the invention.

1n the accompanying drawing:

Figure l is a View in vertical section disclosing a scale constructed in accordance with the features of the present invention,

Figure 2 is a transverse vertical sectional view taken on the plane indicated by the lino 2 2 of Figure l,

Figure l is a vertical longitudinal Isectional view taken through the improved dash pot construction, and

Figure l is a vertical transverse sectional view taken through said dash pot construction and disclosing the associated indicator arm.

Referring more particularly to the accompanying drawing the numeral l designates my improved scale in its entirety. The scale is formed to embody a base 2, which is preferably in the form of an open bottomed hollow casting which has the upper surface thereof provided,l at 'a pointniidway of its length, with a transversely extending slot 3. Resting upon the upper surface of the base 2 and projecting into the base by Way of the slot 3, is a saddle casting 4, which has the transversely spaced arms thereof provided with bearings 6 for the reception of the knife edge fulcrum T which are rigidly connected with and project laterally from the sides of a pivotally movable beam member 8.

The fulcrums 7 are, as usual, transversely aligned so that the beam member may oscillate in a substantially vertical plane above the top of the base l`hc opposed ends of the beam member t5 are provided with fixed knife edge bearings l), which pi votally support a pair of longitudinally spaced stems l0, to which are connected at the upper ends thereof the usual weight receiving platcsor platforms ll. The stems l() project loosely through ol'ienings l2 provided in the opposite ends of the base 2, and the lower ends of the stems lo are pivotally connected with the opposed ends of a check rod lil, which extends longitudinally of the bat-re 2 and in parallelism n ith the beam member S, said beam member, the dependingl stems l0 and the check rod lil being ndapied to constitute the usual weighing parallelogram. Surrounding the tops of. the openings 12 are gaskets 14 of a yieldable material, which are adapted to engage with the under side of the enlarged head provided at the upper ends of the stein 10, in order to cushion the descent of said stems, to limit the defiection of the beam member troni its normal position, and lo eliminate shock and jar in the operation oi the scale.

Arising from the base is an indicator tower 1 5, which is suitably secured at its lower end to the top ot said base as indicated at 16. The lower end of the tower is provided with registering slots 1i', which are formed to receive loosely the transversely cxtendin(v web 18 which constitutes an integral part o the beam member 'l`o the web 1S there is secured an elongated upstanding indicator' 19. which projects in an upward direction perpendicularly with respect to lsaid beam member. The lower end of the indicator is provided with an enlarged head Qt) exteriorly threaded for the reception of a binding nut, 121 which securely clamps and ietains the indicator in fixed rigid relationship with respect to the beam member. By this construction it will be seen that the in dicator arm will oscillate in unison with tbe beam member, and since the arm is ot very considerable length the ezdent of oscillation of said beam member will be magnified at the outer or upper end of the indicator. The indicator is adapted to oscillate within the tower 15, and its upper end terminates preferably in an,arrow head which is arranged to register with a fixed graduated surface 23 provided in the top of the tower. vWhen the beam member is properly balanced the arrow head Qi. is maintained on the zero graduation of the surface 23, and if the beam member is defiected to one side or the other of its balanced normal position. such deflection will be denoted by reference to the relative positions of the indicator with respect to the graduated surface. Preferably. the indicator arm is of such length that its outer end will travel at approximately one inch to every ounce ol' indicated weight. It will be noted that by this construction the indicator is in effect a unitary part of the beam member. and there are no relatively movable connections between the beam member and indicator to effect the actuation of the latter. This is of major importance in eliminating wear and friction from a scale of this type.

To maintain the beam member and the indicator in a normal position of balance and to provide an easy operating t'rictionles` structure, the head Q0 is provided with a depending metallic. strip 2l which is securely mounted in a slot provided in the head 2U. To the lower end of the strip 2l there is secured the upper end of a coil spring 25, which has its lower end connected to a screw Q0 carried iii connection with the depending tubular extremityv Q7 of the saddle casting 4. This saddle casting terminates in a bifurcated portion 28, between the furcatons of which the check rod 13 is pivot-.illy mounted as at 29. It will be seen that oy the provision of the spring 25 and the strip 4 means have been provided exerting an influence on the beam structure and coliseqnently the indicator to maintain the latter pai't in a desired position of balance and, also. to yieldingly resist movement of the beam structure troni this desired or normal position of balance. The construction, however, ot the strip and the coil springs Q4 and respectively do not cause the introduction ot trictional losses into the operation of the scale7 but operate easily and positively under all fluctuatii'ig conditions of teiiiperature to retain the beam and indicator i such normal positions. Moreover, the resilient strip and spring construction is of very practical, strong and durable design and is not apt to become broken. strained or to require replacement and adjustment. Other scales ot this type frequently employ torsional strips and metallic straps to efi'ect the operation of the indicator and to maintain the beam nor mal. Experience has disclosed, however. that such metallic straps and torsional strips at'ter relatively short periodsof use tend to fracture, break or become out of order. 'llhese difficulties have been practically eliminated by the design herein disclosed.

Another feature of importance in the present invention is the provision of a dash pot 30. mounted in the tower l5 for the purpose ot'. dampening or arresting the vibration of the beam structure following the application of weigflitir thereto, in order to accelerate the period required to bring the beam to a desired position of balance, and to enable the scale to be quickly read when subjected to rapid and successive weighing operations. My improved dash pot construction consists of a casing 31 which rests upon an arcuate projection 3Q integrally formed with one of the side walls of the tower 15. The casing is divided internally into a liquid receiving compartment 33 and a splash compartment 34 by means of an arcuate divisional wall 35, and the top of the easing is closed by a horizontal upper wall 36. Both of the walls 35 and 36 are provided with registering longitudinally disposed slots 37, which loosely receive an angularly bent arm 3S which is fixed to the intermediate portion of the indicator 19 as at 39. The outer or lower end of the arm 38 is provided with a paddle l0. which closely con forms to the crosssectional forn'iation of the lower or liquid compartment S3, but is slightlyv spaced from the walls thereof to provide for liquid displacement.

It will be seen that as the indicator oscillates the paddle 40 will move in unison therewith,

lili) thereby meeting resistance in the form of the liquid confined within the compartment 33. This liquid is displaced ather slowly from one side of the paddle to the other, and due to the time required in effecting this displacement and to the resistances thereby occa sioned. a retarding influence is employed to the paddle and consequently the indicator arm which causes the latter to be quickly brought to a state of rest or inertia following the oscillation of the beam member. This construction provides a dash pot wherein there is no frictional rub or contact between relatively movable metallic parts and therefore a uniformly effective resistance is applied to the indicator which positively but gently dampens the oscillation thereof and brings the indicator and the associated beam member to a position of normal equilibrium.

ln View of the foregoing description, taken in connection with the accompanying drawing, it will be seen that the present invention provides a scale ope ating to indicate under and over weights which is characterized by its marked structural simplicity, the compact 'al deft arrangement of its parts, the absence mechanical complications and the ease and y nracy with which the parts of the scale can l readily' assembled in operative interrel ation. The scale has the advantage of being able to coerate and indicate perfectly, independently of the relationship of the supporting surface upon which the base of the scale rests with regard to the horizontal. Many scales require castle levelling and the true positioning thereof on a horizontal plane, in the present scale this is entirrly unnecessary, as the scale will operate in any position. Another advantage of the construction disclosed resides in the fact that the mechanism will notI be deleteriously affected by variations` in temperature, the arrangement being'such that the springs E25 may expand or contract to normal temperature variations without affecting the position of the beam.

lVhat is claimed is:

l. ln a scale, a. base, an oscillatory balanced beam pivotally mounted on said base, an indicator mounted to oscillate in unison w'th said beam. and a coil spring connected with the under side of said beam in alignment with the pivotal axis thereof, the lower end of said spring bei-ngr connected with said base, said spring serving to maintain said beam and indicator in a normal position of balance' and to vicldingly resist deflection of said beam and indicator from said normal position.

2. ln a scale. a base. an oscillatory balanced beam pivotally mounted on said base. an indicator ixcd to oscillate in unison with said beam, a flexible strip connected with the under side of said berlin in the plane of the pivotal :1xisthereot'.and anti-friction means cooperative with the lower ends of said strips to efcct tlexure of the latter when said beam is deflected to one side or the other of a normal operating position.

Il. ln a scale, a base, an oscillatory balanced beam pivotally mounted on said base. an indicator extending perpendicularly from approximatty the center ot' said team and rigidly mounted in connection with said beam to oscillate in unison with the latter, a flexible strip secured to and dependingr from said beam in approximately the plane of the pivotal axis thereof, and an anti-friction connection between the lowcr end of said strip and said base tending to flex said strip when said beam is deflected to either side of a normal position.

4. In a scale, a base, said scale being provided with an opening in the top thereof, a saddle casting seated upon said base and including a depending portion arranged to project through the opening into the interior of said base, an oscillatory balanced beam pivotally mounted upon said saddle casting, an indicator extending perpendicularly from approximately the center of said beam and mounted to oscillate in unison therewith, and spi-iner means connected with the under side of said beam in substantially the plane of said indicator and serving to restore said beam and indicator to normal positions following deflection thereof under applied weights, said springl means having connection with the dependingportions of said saddle casting.

5. In a `vcale, a base provided with an opening ii the top thereof, a saddle casting positioned rlpon said base and provided with a depending portionr passing through said opening and disposed within the interior of said base, a pivotally mounted balanced beam carried by said saddle casting, weight receivers pivotally carried by the opposite ends of said beam, and a check rod arranged within said base and having the center portion thereof pivotally connected with the depending portion of said saddle casting, the outer ends of said check being pivotally connected with the depending ends of said weight rcceiver` (i. In a scale, a base having an opening in the top thereof, a saddle casting having a depending portion arranged to pass through said opening and receivable within the contines of said base, a beam pivotally carried by said saddle casting, weight receivers including depending stems pivotally mounted upon the opposite ends of said beam, a check red having the center portion thereof pivotally connected with the depending portion of said saddle casting and the outer ends thereof pivotally connected with the lower ends of sail weight receiver stems. an indicator extendingl perpendicularly from the center ot' said beam and adapted to oscillate in unison therewith. and springr means connected with the under side of said beam in substantially the plane of said indicator and operating to maintain said beam and indieator in a normal position, the lower portion of said spring means having Connection with tbe depending poition of Said saddle Casting.

7. In a scale, a base, transversely spaced bearings carried by said base, an oscillatory balanced beam pivot-ally mounted in connection with Said bearings, an indicator arm extending perpendienlarly from approximately the Center of said beam and mounted rigidly in connection therewitl for unitary oacillation, a Casing surroundinglr Said indicator arm` and means Carried in connection with sail easing and eooperative with said indicater arm to dampen the vibratory movement thereof.

8. In a scale, a pivotally mounted balanced beam, an indicator arm secured to said beam in approximately the plane of the pivotal mounting thereof` said indicator arm being arranged to oseillate unitarily With said beam. a liquid containing reservoir, and a member fixed to said indicator and arranged for travel Within said reservoir, said mem-A ber being spaced from the Walls of said reservoir.

In testilnomv whereof I aiix my signature.

NATHAN A. HALLVVOOD. 

